working of plant e

OUR PROJECT

Presented By

Hamid Raza 140599

Ehsan ILahi 140629

Muhammad Aleem 140608

Ahmad Bilal 140659

Usama Arshad 140581

Energy crisis on global scale

Our primary energy sources.

None Renewable energy sources.

Renewable energy sources.

Need of new energy sources.(RNB and STB)

IN PAKISTAN Energy crisis in Pakistan.

Other means are very Expensive .

Expensive electricity in Pakistan.

Global warming.

Plant-e

How Plant-e’s technology generate electricity

Photosynthesis.Plant wasteBreak downElectrodes

Plant waste

Break Down

Electrodes

A) PHOTOSYNTHESIS

6CO2+6H2O = C6H12O6+6O2

B) TRANSPORT OF ORGANIC MATTER TO

THE ANODE COMPARTMENT.

(C) ANODIC OXIDATION OF ORGANIC

MATTER BY ELECTROCHEMICALLY

ACTIVE BACTERIA

C6H12O6+12H2O = 6CO2+30H++24E

(D) CATHODIC REDUCTION

OF OXYGEN TO WATER

6O2+24H++24E = 12H2O

Plant e power plant

Feasibility

All over the world where plant can grow.

At Roof

In garden

Forest

As a power plant in fields .

Feasibility

Rice field.

Wetlands.

Polluted areas.

forms of vegetables.

Green

Clean

Affordable

PILOT PLANT

PLANT-E IS STILL IN THE PRODUCT-DEVELOPMENT STAGE.

HOWEVER, A FIRST LARGE-SCALE DEMONSTRATION PROJECT IS IN

OPERATION AT THE CRADLE-2-CRADLE BUILDING OF NIOO:

FOR A PROOF-OF-CONCEPT OF THE “GREEN ELECTRICITY ROOF”.

ELECTRICITY GENERATION POTENTIAL

EUROPEAN RESEARCH CONSORTIUM IS WORKING ON OPTIMALELECTRICITY PRODUCTION OF 3.2W/M2 (CURRENT 50mW/M2). ON AFLAT ROOF OF 50 M2 , 150W COULD BE CONTINUOUSLY PRODUCED.

ASSUMING AN AVERAGE ELECTRICITY NEED OF 500W, A GREEN ROOFCOULD PROVIDE APPROXIMATELY ONE-THIRD OF A HOUSEHOLD’SELECTRICITY NEED.

ENERGY USE BY THE HOUSEHOLD WILL DECREASE FURTHER DUE TOTHE INSULATION CAPACITY OF THE GREEN ROOF.

SO ACTUAL ENERGY SAVING IS MORE THAN ONE/THIRD.

AT AN ELECTRICITY PRICE OF RS. 4.00/KWH, A 50-M2 ELECTRICITYPRODUCING GREEN ROOF COULD POTENTIALLY SAVE A HOUSEHOLDRS 5250 PER YEAR APPROX.

COMPARISIONS WITH OTHER ENERGIES

THIS CAN BE INTEGRATED WITH THE LANDSCAPES, FOREST AND FARMS.

THE POWER GENERATION IS LESS (APPROX. 1.6 MW/KM2) AS COMPARED TOWIND (5-7.7 MW/KM2) AND SOLAR (4.5-7.5 MW/KM2), HOWEVER IT IS CHEAPERAS COMPARED TO THE BOTH OF THEM.

THE POWER OUTPUT OF WIND FARMS AND SOLAR FARMS WILL BE THREE- TOFIVEFOLD HIGHER THAN THAT OF Plant-e

COMPARISIONS WITH OTHER ENERGIES

HOWEVER, Plant-e Have no Bad Impact On OurEnvironment.

NTPC COULD OFFER AN OPPORTUNITY FORELECTRICITY GENERATION WHILE SUSTAININGTHE NATURAL ENVIRONMENT

COULD PROVIDE 24 H/DAY ELECTRICITYGENERATION WITHOUT THE USE OF SCARCEMATERIALS AND WITH NUTRIENTPRESERVATION.

SUMMARY

SOCIAL ADVANTAGES

PLANT-e CAN BE IMPLEMENTED IN (SEMI-)NATURAL ENVIRONMENTS

SUCH AS RECREATION AREAS, SALINE SOILS, ENERGY ISLANDS,

SELECTED WETLANDS, BIOREFINERIES ETC.

It Does Not Affect Our Eco System.

Shows No Disturbance .

USE OF TECHNOLOGY IN NTPC

LAWNS / LANDSCAPE/ PARKS IN TOWNSHIP / PLANT.

STREET LIGHT / TOWNSHIP LIGHTING.

working of plant e

Engineering

plante electricity

plante comparisions

green electricity roof

township plant

expensive electricity

m2 electricity

electricity photosynthesis

energy use